OPEN ACCESS
EURASIA Journal of Mathematics Science and Technology Education ISSN 1305-8223 (online) 1305-8215 (print)
2017 13(1):119-131 DOI 10.12973/eurasia.2017.00607a
© Authors. Terms and conditions of Creative Commons Attribution 4.0 International (CC BY 4.0) apply.
Correspondence: Umut Akcil, Ataturk Education Faculty, Near East University, Nicosia, Cyprus.
An Examination of Open and Technology Leadership
in Managerial Practices of Education System
Umut Akcil Near East University, N. CYPRUS
Fahriye Altınay Aksal Near East University, N. CYPRUS
Farida Sh. Mukhametzyanova Institute of Pedagogics, Psychology and Social Problems, RUSSIA
Zehra Altınay Gazi Near East University, N. CYPRUS
Received 20 February 2016 ▪ Revised 10 June 2016 ▪ Accepted 5 July 2016
ABSTRACT
In order for a smooth and problem-free transformation to take place in a digitalizing
education system, efficient management is needed. Thus, educational managers need to
improve their skills and develop behaviors suitable for taking education systems into the
digital age. Social networks enable leaders to become digital citizens by embracing and
implementing “Open Leadership”. Acceptance of technology and self-efficacy in
technological leadership are both seen as factors that can have positive or negative
influences on the new leadership styles. This study aims to investigate the relationship
between open leadership, digital citizenship, technology acceptance and self-efficacy in
technological leadership. Working with a group of 153 education managers, the research
was conducted using a relational screening model. Following multiple regression analyses,
it was found that technology acceptance and self-efficacy in technological leadership
positively influences digital citizenship at medium level and that self-efficacy in
technological leadership and digital citizenship positively influences open leadership.
Keywords: digital citizenship, managerial practices, open leadership, technology
INTRODUCTION
The opportunities offered by technology in the information age are having a profound
influence on communities worldwide. The digital age has led to immense lifestyle changes
and all fields of professional and academic endeavor have been affected (Czerniewicz &
Brown, 2014).
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120
At the outset, information and communication technologies were regarded as tools
needed by students to assist them in their future lives. However, the technologies have also
become a major tool for both teaching and learning (Mitchell & DeLange, 2013). Educational
processes are increasingly supported through the use of palmtop computers, mobile phones
and tablets (Corlett et al., 2005), and this digitalizing of education has gained strategic
significance in terms of individualizing learning by enabling sensitivity to the learning pace,
style and needs of individual learners. More and more studies are now devoted to the use of
tablets and social networks together with the emergence of a new digital learner generation.
(Yang, et.al, 2016). It is better for educators to understand the concepts, such as global
citizenship, education for sustainable development, human rights, the promotion of a culture
of peace and digital citizenship that will shape children's lives in their development and
prepare them for the 21st century. (Bennett et.al, 2016)
Social networks and education
Social networking sites are defined as web-based services in which users connected in
the system are listed and information about them is open or partly-open to other users.
Information can then be inputted and shared according to specified limits (Boyd & Ellison,
2007). This shared information is known as social content. Photos, audio files, web addresses,
video clips, presentations, event announcements and other media types can be given as
examples of social content (Conole & Culver, 2010). It is also possible to use such content for
educational purposes.
The benefits of social networks for students, academics and institutions in higher
education in terms of enriching teaching and learning experiences have been discussed
widely. According to researchers, social networks improve communication skills, expand
participation and social commitment, foster peer support, and enable cooperative learning
(Blackey & Chew, 2009).
The new technologies have been seen by some commentators as effective problem
solvers of the educational institutions. For Demirel and Dagyar (2016), students gain
effective skills for problem-solving through different research and experiences in the
education field.
State of the literature
Digital learning environment become effective on managerial practices
Digital transformation is crucial for the professional digital leadership
Self-efficacy for technological leadership is very significant
Contribution of this paper to the literature
Technology acceptance and self-efficacy have positive influence on technological leadership
Educational managers need to improve digital learning ability
Open leadership relies on technology acceptance and digital citizenship
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Until recently, studies have tended to focus on the physical teaching dimension
within schools and classrooms and then on the effects of social networks on students and
teachers. However, it is important to note that these products of Web 2.0 technology are also
an important management tool. It is essential therefore also to consider the concept of “Open
Leadership”, and management that incorporates the features of social networks and uses
them as a basis for institutional development (Li, 2010).
Integrating social network technologies into managerial processes such as
information sharing, communication, decision-making, planning, organizing, supervision,
and more besides will contribute to both establishing a participatory culture in educational
organizations, and to more efficient use of information age technologies. “Open leadership”,
as noted, is a key concept in this discussion since open leaders are leader managers who are
unreserved about forming various relational networks based on trust between their
employers and themselves, including using social network tools in order to achieve their
goals (Li, 2010).
Open leadership
Open leadership is a new type of leadership rising from the development of Web 2.0
technologies and social networks. Open leadership requires being more open in management
processes. It is evident that people have the desire and ability to access information more
easily and more quickly these days. Hence, their desire to know what managers and leaders
are doing is stronger than ever (Li, 2010). Ignoring this may lead to inefficiency in
management processes. On the other hand, adapting management processes to the digital
age could yield considerable advantages. As Bush et al. (2011) noted, "effective leadership
and management are vital if schools are to be successful in providing good learning
opportunities for students, and emerging evidence (shows) that high quality leadership
makes a significant difference to school improvement and learning outcomes"
Li (2010) describes open leadership as a type of leadership that establishes a context
of trust, is sharing, and transparent, and prepared in the digital age to build success without
necessarily being constantly 'in charge’. Today’s leaders need to be more open in order to
survive and thrive, and for this to happen, a more secure information sharing culture should
be formed. In addition to involving meanings such as authenticity, honesty, trust, and
fairness, transparency is also related to making visible not only information, but also
information processes. It involves sharing what is both done and said with regard to goals,
opportunities, threats and difficulties.
Leader managers who follow an open leadership philosophy will be those who
accept that inter-personal relationship processes in today’s world have changed to
“watching, sharing, commenting, producing, organizing and supervising” (social network-
based communication model) and will be focused on managing this change efficiently in
their organizations (Li, 2010). Managers who possess open leadership qualities will therefore
use technology efficiently to realize the above mentioned possibilities. Furthermore, open
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leadership is a type of leadership that will assist digital citizens to develop their own self-
efficacy in technology. Thus, open leadership should not be considered in isolation and must
be accompanied by a discussion of concepts such as technology acceptance, self-efficacy in
technological leadership and digital citizenship, all of which have major influences on the
rise of open leadership.
Acceptance of technology
In today’s digital age, there is an immense need for people who can follow updated
technologies, process information quickly, and use and share it efficiently (Fırat, 2010). The
first necessity in developing these qualities is to accept technology, because people resist or
react to changes that they think they do not know or cannot use (Çelik & Bindak, 2005). It is
vital for any organization to predict and proactively counteract such reactions and resistance.
The Technology Acceptance Model (TAM) is a theory that measures the willingness
and intentions of computer technologies and user audiences in large organizations (Davis,
1989). TAM has received much criticism due to its limited nature and researchers have
suggested that more factors should be added to increase its explanatory power (Legris et al.,
2003). However, TAM has earned its place in Management Information System literature as
the most powerful and most widely used theory based on behavioral theories regarding the
acceptance of new technologies at individual level. TAM argues that users’ acceptance of
technology is shaped under the influence of two basic dimensions - perceived ease of use
and perceived usefulness.
Perceived ease of use and perceived usefulness: Perceived ease of use and perceived
usefulness are the two factors that determine the intentions of individuals regarding
computer use (Davis, 1989). The success and adequacy of these two factors in measuring
personal intentions regarding the use of computer systems have been proved by many
researchers (Legris et al., 2003). Perceived usefulness is defined by Davis (1989) as expressing
the intentions and opinions of individuals regarding the effect of technology on their
performance at work; perceived ease of use refers to the ease of use of a technology and
learning how to use it without much effort (Davis, 1989). Cheng Yao’s studies (2008) agreed
that computers provide a visual representation, the 3D shapes, which helps students to
better understand more of what was going on. Perceived usefulness is related to the
performance increase that results from the use of technology by an individual while doing
certain tasks or solving certain problems (Keller, 2005).
Technology leadership and self-efficacy
The skills that should be possessed by administrators in terms of technological
leadership are defined by various international associations under “education technology
standards”. The ISTE (International Society for Technology in Education), based in the
United States of America, published NETS-A (National Educational Technology Standards
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for Administrators) as education technology standards for administrators. These standards
define the knowledge and skills that should be possessed by educational administrators in
order to be efficient leaders in technology implementation. The ISTE first produced NETS-A
in 2002 and then improved these standards in 2009. The 2002 ISTE technological leadership
standards are grouped under 6 headings. These are: Leadership and Vision; Learning and
Teaching; Productivity and Professional Practice; Support; Management and Operations;
Evaluation; Social, Legal and Ethical Issues. The technological leadership standards that
were re-considered by ISTE in 2009 were put into five groups, namely: Visionary Leadership;
Digital Learning Culture; Perfection in Professional Practice; Systematic Development, and
Digital Citizenship (Yu & Durrington, 2006). The characteristics that should be displayed by
a technological leader are further explained as follows (Hacıfazlıoğlu et al., 2010): visionary
leadership, learning culture in digital age, perfectionism in professional practice, systematic
development, digital citizenship.
These qualities were subsequently proposed by Hacıfazlıoğlu, Karadeniz and Dalgıç
(2011) as the determining features of self-efficacy in technological leadership. The concept of
self-efficacy arises in the process of determining and evaluating administrators’ technological
adequacy. Self-efficacy originated with Bandura’s (1977) social learning theory and it is still
significant in today’s world. According to this theory, the reason for an individual being
successful in a certain field is the sense of efficacy s/he feels in that area (Bandura, 1997).
Self-efficacy is defined as the belief that an individual has in starting and finishing an action
that will successfully influence the relevant environments. In this regard, it is necessary for
administrators to gain and develop certain competencies in order to develop awareness and
pursue their responsibilities as technological leaders (Anderson & Dexter, 2005). The
individuals who acquire these competencies will be able to reflect these qualities in all
aspects of their lives, which leads naturally to the concept of digital citizenship.
Digital citizenship
Mossberger, Tolbert and McNeal (2007) define digital citizens as citizens who know:
how to use technology and the digital tools entering our lives in the correct way; respect
ethical rules and people’s rights in the digital arena; and use these tools with an awareness of
safety. Digital citizenship, in short, is described as the behavioral norms for the responsible
use of technology (Ribble, 2007).
Digital citizenship is the acquisition of a very comprehensive set of behaviors. Ribble
(2011) suggests that such behaviors include knowledge and mastery of digital literacy; digital
ethics; digital communication; digital security; digital commerce; digital interaction; digital
rights and responsibilities; digital law; and digital health. Digital citizenship consists of
comprehensive behavior acquisition demonstrating that regular citizenship behaviors have
been fully integrated into the digital world.
The digital citizenship literature offers a number of suggestions for students,
educators and market representatives for the conscious and correct use of online
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technologies and digital platforms in the context of the technological needs of primary and
secondary level students. However, digital citizenship should not be looked at considering
only the young generation (digital locals), but additionally considered in relation to the
behaviors that should be acquired by those moving to technology in later life (digital
migrants) and those who recently started using technology. Prensky defines digital locals as
people who were born in the 1980s and after, while digital migrants consist of those
generations who encountered the digital world later in life (Prensky, 2001).
Digital citizenship behaviors are the behaviors that need to be acquired by
educational administrators in order to manage digital age children and raise them safely
without compromising ethical values. This is why, it is so important for the administrators
themselves to acquire the required competencies.
Since teachers and students use technology intensively as education is digitalized, it
is not possible for administrators to remain remote from these developments or maintain
traditional education management styles. For this reason, administrators should quickly
integrate technology into their management processes as 21st century communication tools
rapidly develop and distribute information. Hence this research hopes to shed light on the
steps to follow in order to implement open leadership in the digital education management
process and reveal the relationship between open leadership, digital citizenship and its
influencing factors such as technology acceptance and self-efficacy in technological
leadership.
In this regard, the questions that shape this research are as follows:
1. What is the level of relationship between self-efficacy in technological leadership, technology acceptance and digital citizenship?
2. What is the level of the relationship between digital citizenship, self-efficacy in technological leadership and open leadership?
This study contributes to the educational literature by examining the indicators of
open leadership in this context, which are digital citizenship, technology acceptance, and
self-efficacy in technological leadership.
MATERIALS AND METHOD
This study was conducted with educational administrators as part of a PhD study in
the 2014-2015 academic year. The total number of participants was 153. The data was
collected using the open leadership scale, technology acceptance scale and self-efficacy in
technological leadership scale and analyzed using the SPSS 22 statistical software. The open
leadership scale was developed as part of the PhD study and its Cronbach’s Alpha value is
0,92. The digital citizenship scale used by Akcil (2015), had found Cronbach alpha value as
0,88. The Cronbach’s Alpha value of the self-efficacy in technological leadership scale is 0,97
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(Hacıfazlıoğlu et al., 2011). The scale includes the technological leadership standards
developed for education managers (NETS-A) by ISTE (2009) (International Society for
Technology in Education). The technology acceptance scale was developed by Davis (1989)
and is a model that aims to reveal how users accept and use technology. The validity and
reliability of this scale was recently re-analyzed and Cronbach’s Alpha value was found to be
0,80 (Cuhadar, 2012). The collected data was also analyzed via multiple regression analysis
as one of the relational statistical methods.
RESULTS
The relationship between digital citizenship, self-efficacy in technological leadership,
technological acceptance and open leadership was analyzed through multiple regression
analysis. Firstly, two models were formed: Model 1 is the effect of technology acceptance and
self-efficacy in technological leadership on digital citizenship; Model 2 is the effect of digital
citizenship on technology acceptance and self-efficacy in technological leadership.
Table 1: Findings regarding the relation between self-efficacy in technological leadership, acceptance
of technology and digital citizenship
Variable B β T P Binary r Tolerance VIF
Fixed 5,617 ,503 ,616
Technology acceptance 1,687 ,574 6,261 ,000 ,674 ,573 1,745
Self-efficacy in
technological
leadership
,805 ,407 4,057 ,000 ,616 ,573 1,745
R= ,713 R²= ,510 F=77,547 p=,000
Model 1
As can be seen from the table 1, the effects of self-efficacy in technological leadership
and technology acceptance on digital citizenship is at medium level and is meaningful
(R=,713, R²=,510, p=,000, p<,05). According to this finding, it can be seen that there is a
positive and medium level (r=,674) relation between digital citizenship and self-efficacy in
technology acceptance, similar to the positive and medium level (r=,616) relation between
digital citizenship and self-efficacy in technological leadership. When the normality and
linearity assumptions of this relation are examined, it is seen that the result is positive.
According to this finding, it is revealed that technology acceptance and self-efficacy in
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technological leadership have an effect on digital citizenship which can be considered as
significant. Thus, technology acceptance and self-efficacy in technological leadership, both
individually and together, have an important influence in forming digital citizenship
behavior. The relation diagram resulting from this finding is as shown in Figure 1, below:
Figure 1: Relationship model for digital citizenship, self-efficacy in technological leadership and
technology acceptance.
Model 2
No meaningful relation was found between technology acceptance and open
leadership in the 2nd Model (p=,591, p>,05). Technology acceptance was taken out of
regression analysis and it was re-analyzed in this model:
Table 2: Findings regarding the relation between digital citizenship, self-efficacy in technological
leadership and open leadership
Variable B β T P Binary r Tolerance VIF
Fixed 5,876 ,911 ,364
Digital citizenship ,209 ,338 4,550 ,000 ,607 ,620 1,613
Self-efficacy in
technological
leadership
,703 ,435 5,853 ,000 ,644 ,620 1,613
R= ,697 R²= ,496 F=70,775 p=,000
Technology acceptance
Self-efficacy in
technological leadership
Digital citizenship
r=,674
r=,616
R²=,510
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As can be seen from the table 2, digital citizenship along with self-efficacy in
technological leadership have a medium level meaningful relation with open leadership
(R=,697, R²=,496, p=,000, p<,05). According to this finding, there is a positive and medium
level relation (r=,607) between open leadership and digital citizenship, similar to the positive
and medium level (r=,644) relation between open leadership and technological leadership.
According to the standardized regression coefficient (β), the order of importance of the
effects of digital citizenship and self-efficacy in technological leadership that are predictor as
listed: self-efficacy in technological leadership and secondly digital citizenship. When the
normality and linearity predictions of this relationship are investigated, the outcome is
positive. According to this finding, digital citizenship and self-efficacy in technological
leadership have a predictor effect on open leadership. Digital citizenship and self-efficacy in
technological leadership, both individually and together, have an important influence on
forming open leadership behavior. The relation diagram based on these findings is given in
Figure 2.
Figure 2: Relation model between open leadership, digital citizenship and self-efficacy in technological
leadership
The final model diagram for the relation between open leadership, digital citizenship and
self-efficacy in technological leadership can be seen in Figure 3. The “+” sign in the diagram
represents a positive relation; the “r” sign represents the relation force between two
variables; and the “R²” sign provides the variance percentage of to what extent independent
variables explain the dependent variable.
Self-efficacy in
technological leadership
Digital citizenship
Open leadership
r=,607
r=,644
R²=,496
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Figure 3: Relation model for open leadership, digital citizenship and self-efficacy in technological
leadership
When Figure 3 is examined, it can be seen that there is a positive and medium level relation
between all variables. According to this finding, self-efficacy in technological leadership and
technology acceptance explains 51% of digital citizenship, while self-efficacy in technological
leadership and digital citizenship explain 50% of open leadership. This result indicates that
digital citizenship and technological leadership are significant factors in developing open
leadership.
DISCUSSION AND CONCLUSION
A relationship that can also be considered as significant was identified between open
leadership along with digital citizenship and technological leadership. A positive and
medium level relation was observed between both digital citizenship as well as self-efficacy
in technological leadership and open leadership. It was found that digital citizenship and
self-efficacy in technological leadership (together) have an influence at the level of 51% in
forming open leadership behavior. Additionally, although, technology acceptance has no
direct influence on open leadership, it can still be said that it has an indirect influence on
open leadership when considered together with digital citizenship.
The final model resulting from this relation process indicated that technology acceptance and
self-efficacy in technological development have influence on forming digital citizenship; and
that digital citizenship and self-efficacy in technological leadership have influence on
forming open leadership.
The results of this empirical study provide practical implications for managers of
educational institutions by investigating antecedents of open leadership, which is a crucial
requirement for the management of schools and their overall success. Examining the
indicators of open leadership is important, and in accordance with Bush et al. (2011),
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leadership plays a key role in the success of educational institutions. When the results were
examined, it was seen that technology acceptance and self-efficacy in technological
leadership have an influence on digital citizenship and can therefore be considered as
significant. It was observed that there is a positive and medium level relation between
technology acceptance along with self-efficacy in technological leadership and digital
citizenship. It was also concluded that technology acceptance and self-efficacy in
technological leadership (together) have an influence at the level of 51% in forming digital
citizenship behavior. Since everything is being digitalized, citizenship and its related
concepts are also in processes of technology-driven transformation, with important
implications for the global future of democratic culture. (Isın & Rupert, 2015)
As a result, in our digitalizing age, education administrators and leaders should become
administrators or leaders who possess digital citizenship and open leadership qualities in
order to be effective administrators. This is because the administrators of a technology-based
education system should also be in control of technology and it is inevitable for them to
integrate technology into their administrative processes. Within this framework, it should be
emphasized that technology acceptance and self-efficacy in technological leadership are
influential in developing digital citizenship and open leadership behaviors.
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